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Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Howard et al, On-Ramp WirelessSlide 1 Project: IEEE P802.15 Working Group for Wireless Personal.

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Presentation on theme: "Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Howard et al, On-Ramp WirelessSlide 1 Project: IEEE P802.15 Working Group for Wireless Personal."— Presentation transcript:

1 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Howard et al, On-Ramp WirelessSlide 1 Project: IEEE P802.15 Working Group for Wireless Personal Area Networks (WPANs) Submission Title: Overview of Dynamic DSSS Proposal 802.15.4TG4g SUN Date Submitted: 6 July, 2009 Source: David Howard, Ted Myers, On-Ramp Wireless, Inc., Address: 16885 West Bernardo Drive, Suite 255, San Diego, CA 92127, USA Voice: +1-858-592-6008, FAX: +1-858-592-6009, E-Mail: david.howard@onrampwireless.com, ted.myers@onrampwireless.comdavid.howard@onrampwireless.comted.myers@onrampwireless.com Re: TG4g Call For Proposals, document number IEEE 15-09-356-004g Abstract:Overview of the On Ramp Proposal (doc# 15-09-0307-00-004g), including a DSSS PHY where dynamic receive sensitivity, allowing up to 187dB of allowable path loss, and a multiple access option that reduces battery consumption. Testing in real world metropolitan and plant environments validate key performance parameters. Purpose:This document is intended as an overview of the On Ramp Wireless’ proposal for addressing the requirements of the TG4g standard. Notice:This document has been prepared to assist the IEEE P802.15. It is offered as a basis for discussion and is not binding on the contributing individual(s) or organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or withdraw material contained herein. Release:The contributor acknowledges and accepts that this contribution becomes the property of IEEE and may be made publicly available by P802.15.

2 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Outline Requirements of 15.4g –PAR –PG&E presentation (15-08-0297) Details of Dynamic DSSS proposal –TX/RX architecture –System Parameters Performance results –Link budget, sensitivity, system performance in multi-path Summary and conclusions Slide 2Howard et al, On-Ramp Wireless

3 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Requirements PAR –Data rate at least 40kbps –Optimal energy efficient link margin –Connectivity to at least one thousand direct neighbors –Minimal infrastructure –Reach every node in the network –Long range point to point reduces cost PG&E presentation (15-08-0297) –Coverage probability: 100% –Capacity requirements are in 10’s of kbps High link margin is a fundamental design criteria to reach every node in the network with 100% coverage probability and minimal infrastructure Slide 3Howard et al, On-Ramp Wireless

4 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Proposed Dynamic DSSS Physical Layer More details about the Dynamic DSSS Physical Layer can be found in the latest version of 15-09-0307-00-004g Slide 4Howard et al, On-Ramp Wireless

5 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Overview of Dynamic DSSS Proposal PHY is optimized for wireless meters: –Very large link margin: up to -146dBm sensitivity– allows connection to the hard to reach meters – minimal infrastructure –Scalable data rates: 30bps –250 kbps - allows for tradeoff of range vs. rate –Support for multiple frequency bands of operation PHY solution enables very low-power consumption –Large link margin allows longer range and no hops in the mesh – ideal for battery operated gas and water meters –Lower cost and lower power consumption power amplifiers Simple and low complexity modulation parameters: –Alternative multiple access scheme allows reading 1000 meters at the same time Support for world-wide operation –Europe and Asia require lower transmit power that reduces link margin Slide 5Howard et al, On-Ramp Wireless

6 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Example TX architecture Convolution encode And interleave D-BPSK Modulate PN Spread Data stream Analog RF Add some details on encoder, spreader Slide 6Howard et al, On-Ramp Wireless

7 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Example RX architecture Convolution decode And de-interleave D-BPSK Demodulate PN Despread Data stream Analog RF Slide 7Howard et al, On-Ramp Wireless

8 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Dynamic DSSS Examples for 2.4 GHz Slide 8 Howard et al, On-Ramp Wireless

9 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Link budget and receiver sensitivity Up to 1.8 miles at 2.4GHz and 2.79 miles at 900MHz in Okumura-Hata suburban model, 1.5m antenna height Slide 9Howard et al, On-Ramp Wireless

10 Submission doc.: IEEE 802. 15-09-448-00-004g June 1, 2009 Summary PHY has been designed to provide a very high link margin, low- power, low-complexity solution PHY supports: –Scalable data rates from 30bps to 250 kbps –A maximum range of 1.8 miles at 2.4GHz, 2.79 miles at 900MHz (Okumura-Hata model), 1.5m antenna height PHY complies with world-wide regulations Dynamic DSSS offers the best solution for hard to reach meters to allow 100% coverage and for battery operated gas meters Slide 10Howard et al, On-Ramp Wireless


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